CN217237952U - Carbon monitoring device for monitoring carbon emission - Google Patents

Abstract

The utility model provides a carbon monitoring devices for monitoring carbon discharges. A carbon monitoring device for monitoring carbon emissions, comprising: the energy absorption device comprises a protection box and an energy absorption mechanism, wherein the protection box is arranged on a lifting platform, and a lifting plate is arranged at the top of the protection box; the energy absorption mechanism comprises four energy absorption assemblies distributed in an annular array, each energy absorption assembly comprises an energy absorption plate, a first fixing plate and a second fixing plate, and the first fixing plates and the second fixing plates are fixedly arranged at the top of the protection box. The utility model provides a carbon monitoring devices for monitoring carbon discharges can carry out the energy-absorbing and weaken to the impact of four directions through setting up four energy-absorbing subassemblies and lifter plate, according to the energy when striking produces and the difference of speed, absorbs and weakens the impact with the reply mode of difference respectively, and is obvious with the absorption to the weakening of impact, and effectual to can protect detection device not by the harm.

Description

Carbon monitoring device for monitoring carbon emission

Technical Field

The utility model relates to a carbon monitoring devices technical field especially relates to a carbon monitoring devices for monitoring carbon discharges.

Background

At present, both internationally and domestically, there is a demand for reducing carbon emission, and generally, it is popular to allocate the total amount of carbon emission for a certain period of time to each unit, and if the total amount is exceeded, there is a corresponding penalty mechanism, so how to effectively monitor and control the carbon emission process under the premise of total amount limitation has become an important technical problem. Building carbon emission monitoring facilities device among the prior art simple structure can not adjust monitoring mechanism's height, and at the building job site, because the environment is complicated, monitoring mechanism will be touch to the staff carelessly once, and current monitoring mechanism lacks some safeguard procedures for monitoring mechanism's security can receive the influence.

The existing publication of the authorization publication No. CN 214503541U discloses a building carbon emission monitoring apparatus, including an apparatus main body; in the utility model, the motor drives the speed reducer to rotate, the speed reducer drives the connecting rotating shaft to rotate, the connecting rotating shaft drives the screw rod to rotate, and the rotation of the screw rod enables the slider to move in the chute, so that the height of the mounting plate can be adjusted, and further the height of the monitoring mechanism can be adjusted; the utility model discloses in, can protect the both sides of monitoring mechanism through first curb plate and second curb plate, when external impact to first curb plate or second curb plate, cooperation through first telescopic prop and first spring or second telescopic prop and second spring can weaken the impact force to reduce the impact force to the influence of monitoring mechanism, the roof of design can come to play a guard action to the top of monitoring mechanism, prevent to have the direct top that drops at monitoring mechanism of foreign object.

But this scheme still is not enough to some extent, and first curb plate and second curb plate all adopt fixed connection with the mounting panel, and first curb plate still can pass through the mounting panel with the impact and transmit monitoring mechanism before receiving the striking and the mounting panel separation with the second curb plate, only relies on the cooperation of first telescopic strut and first spring or second telescopic strut and second spring to weaken the impact, weakens and the energy-absorbing effect is limited.

Therefore, it is necessary to provide a carbon monitoring device for monitoring carbon emission to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a carbon monitoring devices for monitoring carbon discharges, it is obvious with the absorption to the weakening of impact force, effectual.

In order to solve the technical problem, the utility model provides a carbon monitoring devices for monitoring carbon emission, include: the protection box is arranged on the lifting platform, and a lifting plate is arranged at the top of the protection box; the energy absorption mechanism comprises four energy absorption assemblies distributed in an annular array, each energy absorption assembly comprises an energy absorption plate, a first fixing plate and a second fixing plate, the first fixing plate and the second fixing plate are fixedly installed at the top of the protection box, and the energy absorption plates are arranged on one side of the first fixing plate and connected through a plurality of energy absorption springs.

Preferably, be equipped with four guide bars on the lifter plate, install reset spring on the guide bar, the bottom of lifter plate is equipped with the layer board, one side of layer board with the protection box is connected, one side of layer board adsorbs in the bottom of the electro-magnet of being connected with the protection box.

Preferably, install the cutting off cutter on the energy-absorbing plate, the cutting off cutter runs through first fixed plate, one side of cutting off cutter is equipped with the rope, and the fixed block is installed to one side of second fixed plate, the rope passes two locating pieces of installation on the fixed block, first fixed plate with be equipped with two trigger bars between the second fixed plate, the trigger bar runs through the protection box, the bottom of trigger bar is equipped with the switch, the switch with the protection box is connected.

Preferably, the energy-absorbing plate comprises a first baffle plate, a second baffle plate and a plurality of energy-absorbing sheets arranged between the first baffle plate and the second baffle plate.

Preferably, the distance between the trigger rod and the switch is 2-5 mm.

Compared with the prior art, the utility model provides a carbon monitoring devices for monitoring carbon emission has following beneficial effect:

(1) through setting up four energy-absorbing subassembly and lifter plate, can carry out the energy-absorbing and weaken to the impact of four directions, according to the energy when striking production and the difference of speed, absorb and weaken the impact with the reply mode of difference respectively, it is obvious with the absorption to the weakening of impact, effectual to can protect detection device not by the harm.

(2) Through setting up guide bar, reset spring, layer board and electro-magnet, control lifter plate that can be convenient descends along the guide bar, carries out effectual protection in the protection box with monitoring devices income.

(3) Through setting up cutting off cutter, rope, trigger bar and switch, the time in the control monitoring devices income protection box that can be convenient prevents that the mistake from touching.

(4) The energy absorption device comprises a first baffle, a second baffle and a plurality of energy absorption sheets arranged between the first baffle and the second baffle, so that the impact force can be effectively absorbed and weakened through the burst of the energy absorption sheets.

(5) And the distance between the trigger rod and the switch is 2-5mm, so that the effectiveness of the trigger of the switch is not influenced, and the switch can be prevented from being touched by mistake.

Drawings

Fig. 1 is a schematic structural diagram of a carbon monitoring device for monitoring carbon emission provided by the present invention;

FIG. 2 is a schematic view showing a structure of a protective case in the carbon monitoring device for monitoring carbon emission shown in FIG. 1;

FIG. 3 is a top view of a protective case of the carbon monitoring device for monitoring carbon emissions shown in FIG. 1;

fig. 4 is a sectional view of a protective case in the carbon monitoring device for monitoring carbon emission shown in fig. 1;

FIG. 5 is an enlarged view of portion A of FIG. 3;

fig. 6 is an enlarged view of a portion B in fig. 4.

Reference numbers in the figures: 1. protection box, 2, lift platform, 3, lifter plate, 4, energy-absorbing plate, 5, first fixed plate, 6, energy-absorbing spring, 7, second fixed plate, 8, cut-off knife, 9, rope, 10, guide bar, 11, trigger bar, 12, fixed block, 13, locating piece, 14, layer board, 15, electro-magnet, 16, reset spring, 17, switch, 18, first baffle, 19, second baffle, 20, energy-absorbing piece.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Example 1:

referring to fig. 1-6, in an embodiment of the present invention, a carbon monitoring device for monitoring carbon emission includes: the energy absorption device comprises a protection box 1 and an energy absorption mechanism, wherein the protection box 1 is installed on a lifting platform 2, a top cover is arranged at the top of the lifting platform 2, the lifting platform 2 can lift the protection box 1, a lifting plate 3 is arranged at the top of the protection box 1, and the lifting plate 3 penetrates through the protection box 1; the energy absorption mechanism comprises four energy absorption components distributed in an annular array, the four energy absorption components can absorb and weaken impact force in four directions, each energy absorption component comprises an energy absorption plate 4, a first fixing plate 5 and a second fixing plate 7, the first fixing plate 5 and the second fixing plate 7 are fixedly arranged at the top of the protection box 1, the energy absorption plates 4 are arranged on one sides of the first fixing plates 5 and are connected through a plurality of energy absorption springs 6, when the energy absorption mechanism is used, a monitoring device (equipment) is fixedly arranged on the lifting plate 3, when impact is generated, the energy absorption components do different actions according to the impact speed, when the impact speed is slow, but the kinetic energy is large, an impact object pushes the energy absorption plates 4 to move towards one sides of the first fixing plates 5 and compress the energy absorption springs 6, the impact force is absorbed and weakened through the energy absorption springs 6, when the impact speed is high and the kinetic energy is large, the energy absorption plate 4 absorbs and weakens (a part of) the impact force in a burst mode, then further absorbs the rest impact force through the energy absorption spring 6, and if the absorbed (rest) impact force is still large, the lifting plate 3 rapidly descends to store the monitoring mechanism (equipment) in the protection box 1 to protect the monitoring device (equipment).

Through setting up four energy-absorbing subassembly and lifter plate 3, can carry out the energy-absorbing and weaken to the impact of four directions, according to the energy when striking production and the difference of speed, absorb and weaken the impact with the reply mode of difference respectively, it is obvious with the absorption to the weakening of impact, effectual to can protect detection device not by the harm.

Example 2:

as shown in fig. 3-4, four guide rods 10 are arranged on the lifting plate 3, a return spring 16 is installed on each guide rod 10, a supporting plate 14 is arranged at the bottom of the lifting plate 3, one side of each supporting plate 14 is connected with the protection box 1, one side of each supporting plate 14 is adsorbed at the bottom of an electromagnet 15 connected with the protection box 1, when the lifting plate is used, the electromagnet 15 is powered off, the return spring 16 pulls the lifting plate 3 to descend, a monitoring device installed at the top of the lifting plate 3 is collected into the protection box 1, and meanwhile, the lifting plate 3 descends to push the supporting plates 14 to rotate to be vertical.

Through setting up guide bar 10, reset spring 16, layer board 14 and electro-magnet 15, the control lifter plate 3 that can be convenient descends along guide bar 10, carries out effectual protection with monitoring devices income protection box 1.

Example 3:

as shown in fig. 3-5, a cutting knife 8 is installed on the energy-absorbing plate 4, the cutting knife 8 penetrates through the first fixing plate 5, a rope 9 is arranged on one side of the cutting knife 8, the rope 9 surrounds four second fixing plates 7 for one turn, a fixing block 12 is installed on one side of the second fixing plates 7, the rope 9 penetrates through two positioning blocks 13 installed on the fixing block 12, two trigger rods 11 are arranged between the first fixing plate 5 and the second fixing plates 7, the trigger rods 11 penetrate through the protection box 1, a switch 17 is arranged at the bottom of the trigger rods 11, the switch 17 is connected with the protection box 1, when the impact force is large, the impact force cannot be completely absorbed by the energy-absorbing plate 4 and the energy-absorbing spring 6, the energy-absorbing plate 4 is impacted to move towards the first fixing plate 4 and push the cutting knife 8 to move, the cutting knife 8 moves to cut off the rope 9 on one side of the fixing block 12, the trigger rod 11 is triggered by gravity to fall, the switch 17 below is closed, the switch 17 is closed, the trigger electromagnet 15 is powered off, finally the fixed plate 3 falls, and the monitoring device arranged at the top of the lifting plate 3 is collected into the protection box 1.

Through setting up cutting off cutter 8, rope 9, trigger bar 11 and switch 17, the time of control monitoring devices income protection box 1 that can be convenient prevents to miss and touches.

Example 4:

as shown in fig. 5, the energy-absorbing plate 4 comprises a first baffle plate 18, a second baffle plate 19 and a plurality of energy-absorbing sheets 20 arranged between the first baffle plate 18 and the second baffle plate 19, when the first baffle plate 18 of the energy-absorbing plate 4 receives an impact, the impact can be effectively absorbed and weakened through the burst of the energy-absorbing sheets 20, when the impact is low, the energy-absorbing sheets 20 cannot be broken, and the impact can be absorbed and weakened only by the energy-absorbing springs 6.

Through the arrangement of the energy absorbing plate which comprises the first baffle plate 18, the second baffle plate 19 and the plurality of energy absorbing sheets 20 arranged between the first baffle plate 18 and the second baffle plate 19, the impact force can be effectively absorbed and weakened through the burst of the energy absorbing sheets 20.

Example 5:

as shown in fig. 6, the distance between the trigger rod 11 and the switch 17 is 2-5mm, and 2-5mm, the trigger rod 11 can fall within 0.1S and trigger the switch 17 to be closed, so that the effectiveness of triggering the switch 17 is not affected, and the switch 17 can be prevented from being triggered by mistake.

By setting the distance between the trigger rod 11 and the switch 17 to be 2-5mm, the trigger effectiveness of the switch 17 is not influenced, and the switch 17 can be prevented from being touched by mistake.

The utility model provides a carbon monitoring devices for monitoring carbon emission's theory of operation as follows:

firstly, a monitoring device (equipment) is fixedly arranged on a lifting plate 3, when impact is generated, an energy-absorbing component makes different actions according to impact speed, when the impact speed is low but the kinetic energy is high, an impactor pushes an energy-absorbing plate 4 to move towards one side of a first fixing plate 5 and compress an energy-absorbing spring 6, and the energy-absorbing spring 6 absorbs and weakens the impact force;

when the impact speed is high and the kinetic energy is large, the impact force can be effectively absorbed and weakened (a part of the impact force is weakened) through the burst of the energy absorption sheet 20, and then the rest impact force is further absorbed through the energy absorption spring 6;

if the impact (kinetic energy) is still very big after being absorbed, second baffle 19 receives the striking to remove and promote cutting off cutter 8 to remove to first fixed plate 4, and cutting off cutter 8 removes and cuts off fixed block 12 one side rope 9, and trigger bar 11 receives gravity to descend and triggers switch 17 closure below, and switch 17 closure triggers electro-magnet 15 outage, finally makes fixed plate 3 descend, and the monitoring devices that will install the top of lifter plate 3 is taken into protection box 1 in, protects monitoring devices (equipment).

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. A carbon monitoring device for monitoring carbon emissions, comprising:

the protection box is arranged on the lifting platform, and a lifting plate is arranged at the top of the protection box;

the energy absorption mechanism comprises four energy absorption assemblies distributed in an annular array, each energy absorption assembly comprises an energy absorption plate, a first fixing plate and a second fixing plate, the first fixing plate and the second fixing plate are fixedly installed at the top of the protection box, and the energy absorption plates are arranged on one side of the first fixing plate and connected through a plurality of energy absorption springs.

2. The carbon monitoring device according to claim 1, wherein the lifting plate is provided with four guide rods, the guide rods are provided with return springs, the bottom of the lifting plate is provided with a support plate, one side of the support plate is connected with the protection box, and one side of the support plate is adsorbed at the bottom of an electromagnet connected with the protection box.

3. The carbon monitoring device for monitoring carbon emission according to claim 1, wherein a cutting knife is mounted on the energy absorbing plate, the cutting knife penetrates through the first fixing plate, a rope is disposed on one side of the cutting knife, a fixing block is mounted on one side of the second fixing plate, the rope penetrates through two positioning blocks mounted on the fixing block, two trigger rods are disposed between the first fixing plate and the second fixing plate, the trigger rods penetrate through the protection box, a switch is disposed at the bottom of the trigger rods, and the switch is connected with the protection box.

4. The carbon monitoring device for monitoring carbon emissions of claim 1, wherein said energy absorbing plate comprises a first baffle plate, a second baffle plate, and a plurality of energy absorbing fins mounted between said first baffle plate and said second baffle plate.

5. A carbon monitoring device for monitoring carbon emissions according to claim 3, wherein the trigger lever is at a distance of 2-5mm from the switch.

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